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Jean-Philippe DeBray, Ph.D., is the Fab operation director at Finisar which purchased the VCSEL division of Honeywell. DeBray joined Honeywell in 2002. Prior to Honeywell, DeBray was senior staff scientist at Emcore Corp. where he was the leader of the GaN LED based epitaxy group. He has 19 publications. DeBray received a master of science in chemistry and a Ph.D. in material science from Pierre and Marie Curie University (Paris, France).

Anton Yurievich Egorov, Ph.D., is a senior researcher at the A.F. Ioffe Physico-Technical Institute, Russian Academy of Sciences, Division of Physics of Semiconductor Heterostructures. His area of experience includes synthesis and investigation of the AIII-BV heterostructures, GaAs and InP and GaP based (In, Ga, Al)(As, N) quantum well and quantum dots heterostructures; device application: edge and vertical cavity surface emitting lasers, HEMT, LEDs and solar cells. Egorov graduated from the Leningrad Electrical Engineering Institute (now called the University of Petersburg Electrical Engineering University) and received his Ph.D. from the Ioffe Institute.

Thomas F. Kuech, Ph.D., is the Milton J. and A. Maude Shoemaker Professor in the Department of Chemical and Biological Engineering at the University of Wisconsin-Madison. His fields of interest include solid-state materials synthesis and characterization, electronic and semiconductor materials, materials integration and nanostructure formation. Kuech has numerous publications and honors including serving as the principal editor of the Journal of Crystal Growth since 2003 and as associate editor of Materials Science Reports since 1998. He received his B.S. degree in physics and M.S. degree in materials science from Marquette University and then earned M.S. and Ph.D. degrees in applied physics from the California Institute of Technology.

Eric Monberg, Ph.D. is a Distinguished Member of the Technical Staff at OFS Laboratories where he works on fiber draw research with particular emphasis on microstructure fibers. His prior experience includes research on the growth of low-dislocation-density III-IV bulk single crystals by the gradient freeze (VGF) method at the Western Electronics Engineering Research Center, Princeton, N.J. He has also worked at AT&T Bell Laboratories and Lucent Technologies Bell Laboratories. Monberg is a member of the Optical Society of America (OSA) and the American Association of Crystal Growth, where he is the secretary and a member of the executive committee. He received a Ph.D. degree in physical chemistry from the University of Michigan.



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	HOME >> COMPANY >> ADVISORS Jean-Philippe DeBray, Ph.D., is the Fab operation director at Finisar which purchased the VCSEL division of Honeywell. DeBray joined Honeywell in 2002. Prior to Honeywell, DeBray was senior staff scientist at Emcore Corp. where he was the leader of the GaN LED based epitaxy group. He has 19 publications. DeBray received a master of science in chemistry and a Ph.D. in material science from Pierre and Marie Curie University (Paris, France). Anton Yurievich Egorov, Ph.D., is a senior researcher at the A.F. Ioffe Physico-Technical Institute, Russian Academy of Sciences, Division of Physics of Semiconductor Heterostructures. His area of experience includes synthesis and investigation of the AIII-BV heterostructures, GaAs and InP and GaP based (In, Ga, Al)(As, N) quantum well and quantum dots heterostructures; device application: edge and vertical cavity surface emitting lasers, HEMT, LEDs and solar cells. Egorov graduated from the Leningrad Electrical Engineering Institute (now called the University of Petersburg Electrical Engineering University) and received his Ph.D. from the Ioffe Institute. Thomas F. Kuech, Ph.D., is the Milton J. and A. Maude Shoemaker Professor in the Department of Chemical and Biological Engineering at the University of Wisconsin-Madison. His fields of interest include solid-state materials synthesis and characterization, electronic and semiconductor materials, materials integration and nanostructure formation. Kuech has numerous publications and honors including serving as the principal editor of the Journal of Crystal Growth since 2003 and as associate editor of Materials Science Reports since 1998. He received his B.S. degree in physics and M.S. degree in materials science from Marquette University and then earned M.S. and Ph.D. degrees in applied physics from the California Institute of Technology. Eric Monberg, Ph.D. is a Distinguished Member of the Technical Staff at OFS Laboratories where he works on fiber draw research with particular emphasis on microstructure fibers. His prior experience includes research on the growth of low-dislocation-density III-IV bulk single crystals by the gradient freeze (VGF) method at the Western Electronics Engineering Research Center, Princeton, N.J. He has also worked at AT&T Bell Laboratories and Lucent Technologies Bell Laboratories. Monberg is a member of the Optical Society of America (OSA) and the American Association of Crystal Growth, where he is the secretary and a member of the executive committee. He received a Ph.D. degree in physical chemistry from the University of Michigan.